WO2005115191A1 - Shock-absorbing method and device of an insole of a resilient shoe - Google Patents

Abstract

A shock-absorbing method and device of an insole of a resilient shoe is provided. At least one transverse partition is set in a gas or liquid chamber of the insole. The gas or liquid chamber of the insole is partitioned into a fore cavity and a rear cavity by the partition. The fore cavity and the rear cavity are communicated reciprocally at both ends of the partition. Preferably, a fishbone-shaped partition is set longitudinally in the gas or liquid chamber. Column is set on every end of every fish bone of the fishbone-shaped partition and corresponded to a position of an acupoint at the bottom of foot. Soft or resilient material could be put into the gas or liquid chamber. The insole according to the invention could be shock absorbing and resilient.

Description

 TECHNICAL FIELD

 The present invention relates to components and methods of footwear, and in particular, to a method and a device for damping the inner cushion of a stretch shoe. Background technique

 In the existing elastic shoe inner cushion using a gas or liquid cavity, the gas or liquid is filled therein. However, during walking, the gas or liquid in the cavity squeezes and flows too fast, and the cushioning performance is not strong enough, which affects Although the shock absorption effect can increase the cushioning performance by increasing the pressure of the gas or liquid in the cavity, it greatly reduces the elasticity of the inner pad of the elastic shoe, which cannot meet the needs of the human body to the greatest extent. Summary of the invention

 The object of the present invention is to provide a method and a device for damping the inner pad of a stretch shoe, so as to solve the defects in the prior art that cannot effectively balance cushioning and elastic performance, and maximize the adaptation to the needs of the human body.

The shock absorbing method of the elastic shoe inner pad adopted by the present invention is: at least one horizontal spacer is provided in the gas or liquid cavity of the elastic shoe inner pad, and the spacer divides the gas or liquid cavity into a front A cavity and a back cavity, and the front cavity and the back cavity can communicate with each other outside the end of the spacer; In the gas or liquid cavity, a fish bone spacer is longitudinally provided, and an end of a fishbone portion on the fish bone spacer is provided with a column edge;

 In the gas or liquid cavity, a side spacer introduced from the outer end of the inner pad of the stretch shoe is provided, and an end of the side spacer is provided with a column edge;

 The spacer, the fish bone spacer and the side spacer are directly connected to the bottom of the inner pad of the stretch shoe, and the gas or liquid cavity is pressed into a cavity having a corresponding shape;

 The spacer is located at the boundary between the forefoot of the human foot and the bare foot of the hind foot; the column edge is located at a position relative to the relevant acupoints at the bottom of the human foot.

 The shock absorbing device for an inner pad of a stretch shoe, which realizes the above method, includes an inner pad body, and the inner pad body has a gas or liquid cavity therein, and is characterized in that: the gas or liquid cavity is provided with a lateral A partition, which divides a gas or liquid cavity into a front cavity and a rear cavity, and the front cavity and the rear cavity can communicate with each other outside the ends of the partition;

 The gap width at the junction of the front cavity and the back cavity outside the end of the spacer is 0. Iran to 2cm;

 The gas or liquid cavity is filled with soft or elastic materials;

 The thickness of said soft or elastic material is 1mm to 3cm;

 In the gas or liquid cavity, a fish bone spacer is longitudinally provided, and an end portion of a fishbone portion on the fish bone spacer is provided with a column edge; and the inner cushion body is provided with a side spacer inwardly along the outer end. The end of the side spacer is provided with a column edge.

The beneficial effects of the present invention are as follows: In the present invention, a lateral spacer is provided in the gas or liquid cavity of the inner cushion of the stretch shoe to separate it into a front cavity and a rear cavity, and The cavity and the back cavity can communicate with each other outside the end of the partition. In this way, when a person is walking, the foot roots first land on the ground. First, the back cavity is pressed, and the gas or liquid in the back cavity is squeezed to the front cavity. Due to the effect of the spacer, the channels of the rear cavity and the front cavity outside the end of the spacer are narrowed, and the flow velocity of the gas or liquid is reduced, which improves the buffering performance. At the same time, the buffering performance is improved. It does not need to be achieved by increasing the pressure of the gas or liquid in the cavity, and thus does not reduce the overall elasticity of the inner sole of the elastic shoe. This design can effectively take into account cushioning and elastic properties, and has a simple structure that can adapt to the human body to the greatest extent. Requirements, especially when the spacer is at the boundary between the forefoot and the bare hind foot of the human foot, so that the invention is more in line with the principle of human body dynamics, and the practicality of the invention is improved; the fish is arranged longitudinally in the gas or liquid cavity A bone spacer, a column edge is provided at an end of a fish sturgeon portion on the fish bone spacer, and a side spacer is introduced from the outer end of the inner pad of the elastic shoe, and the edge of the side spacer is also provided with a column edge. Bone spacer The side spacer helps to improve the strength of the elastic shoe inner cushion, and the column edge on it helps reduce the stress concentration of the fish bone spacer and the end of the side spacer, thereby improving the service life of the present invention. The elasticity of the strips and side spacers is not equal to the elasticity of the gas or liquid cavity, which will essentially produce a massage effect on the soles of the human feet. Well, the practicality of the present invention is further improved. In short, the present invention can take into account both cushioning and elastic properties, has a simple structure, is highly practicable, and can produce a massage effect during use, thereby maximally adapting to human needs. BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic plan view of an inner pad body according to the present invention. detailed description

 The present invention is further described in detail below with reference to the drawings and embodiments:

 According to FIG. 1, the elastic shoe inner pad of the present invention includes an inner pad body. As shown in FIG. 1, the inner pad body has a gas or liquid cavity 1 therein, and a lateral spacer 11 is provided in the gas or liquid cavity 1. The partition 11 separates the gas or liquid cavity 1 into a front cavity 1A and a rear cavity 1B, and the front cavity 1A and the rear cavity 1B can communicate with each other outside the ends of the partition 11 as shown in FIG. 1. Lmm 至 As shown, the front cavity 1A and the rear cavity 1B communicate through the S section, in the S section, the gap between the front cavity 1A and the rear cavity 1B outside the end of the partition 11 width L is 0. lmm to 2 cm, as shown in FIG. 1, the spacer 11 is located at the boundary between the forefoot and the hind foot of the human foot.

 As shown in FIG. 1, in a gas or liquid cavity 1, a fish bone spacer 12 is longitudinally disposed, and an end 122 of a fishbone 121 on the fish bone spacer 12 is provided with a column edge 122. As shown in FIG. 1, the fish bone The trunk of the partition strip 12 penetrates the partition strip 11 along the inner pad body, and the fish stings 121 thereon are respectively distributed in the front cavity 1A and the rear cavity 1B, and are provided with corresponding column sides 122; as shown in FIG. 1 The inner cushion body is provided with a side spacer 13 inward along the outer end, and a column edge 132 is provided at the end of the side spacer 13. As shown in FIG. 1, a side spacer 13 is provided on the upper left and upper right sides of the front cavity 1A. A side spacer 13 is respectively provided on the lower left and lower right sides of the rear cavity 1B.

As shown in FIG. 1, the spacer 11, the fish bone spacer 12 and the side spacer 13 are directly connected to the bottom of the inner cushion body, and the gas or liquid cavity 1 is pressed into a cavity having a corresponding shape. The spacer 11, An edge groove R is formed between the fish bone spacer 12, and the side spacer 13 and the gas or liquid cavity 1, and the spacer 11, the fish bone spacer 12, and the side spacer 13 and the upper end of the cavity of the corresponding shape are formed. In the same horizontal plane, the column sides 122, 132 are located at positions relative to the relevant acupoints at the bottom of the human foot.

 When the present invention is used, when walking, the foot first touches the ground. First, the rear cavity 1B in the gas or liquid cavity 1 is compressed, and the gas or liquid in the rear cavity 1B passes through the S part outside the end of the spacer 11 The front cavity 1A squeezed into the gas or liquid cavity 1 is actually narrowed by the channel of the rear cavity and the front cavity outside the end of the partition 11 due to the effect of the partition 11, and the gas or liquid squeezes and flows. The speed is reduced, and the cushioning performance is improved. At the same time, the improvement of the cushioning performance does not need to be achieved by increasing the pressure of the gas or liquid in the gas or liquid cavity 1, and thus does not reduce the overall elasticity of the present invention. The gas or liquid cavity 1 can be filled with a soft or elastic material. The thickness of this soft or elastic material is 1 mm to 3 cm, which can be used to enhance the overall strength of the inner pad of a stretch shoe.

 In this embodiment, only one horizontal spacer 11 is provided in the gas or liquid cavity 1. Similarly, two or more spacers 11 may be provided. As for the structure and principle, it is the same as or similar to that described above. I won't repeat them here.

Claims

Rights request

A shock absorbing method for an inner pad of a stretch shoe, characterized in that: at least one transverse spacer is provided in the gas or liquid cavity of the inner pad of the stretch shoe, and the spacer divides the gas or liquid cavity It is a front cavity and a back cavity, and the front cavity and the back cavity can communicate with each other outside the ends of the spacer.

 2. The shock absorbing method for elastic shoe inner pads according to claim 1, characterized in that: in said gas or liquid cavity, a fishbone spacer is provided longitudinally, and a fishbone portion on said fishbone spacer is provided. The ends are set with column edges.

 3. The method for damping the inner cushion of a stretch shoe according to claim 2, wherein a side spacer introduced from the outer end of the inner cushion of the stretch shoe is provided in the gas or liquid cavity, and the side spacer The ends of the bars are provided with column edges.

 4. The method for damping the inner cushion of a stretch shoe according to claim 3, wherein the spacer, the fish bone spacer and the side spacer are directly connected to the bottom of the inner sole of the stretch shoe, and the gas or liquid Cavity pressure is divided into cavities with corresponding shapes.

 5. The method for shock absorbing an inner pad of a stretch shoe according to claim 1, wherein the spacer is located at a boundary between the forefoot of the human foot and the bare foot of the rear foot.

 6. The method for shock absorbing an inner pad of a stretch shoe according to claim 2 or 3, characterized in that: the column edge is located at a position relative to the relevant acupoint of the bottom of the human foot.

7. A shock absorbing device for implementing an inner pad of a stretch shoe according to the method of claim 1, comprising an inner pad body, said inner pad body having a gas or liquid cavity (1) therein, characterized in that: A horizontal spacer (11) is provided in the gas or liquid cavity (1), The spacer (11) separates the gas or liquid cavity (1) into a front cavity (1A) and a rear cavity (1B), and the front cavity (1A) and the rear cavity (IB) can be separated from the spacer (11) Intercommunications outside the ends. '

 8. The shock absorbing device for an inner pad of a stretch shoe according to claim 7, characterized in that: the connection between the front cavity (1A) and the rear cavity (1B) outside the end of the spacer (11) The gap width was 0.1 to 2 cm.

 9. The shock absorbing device for an inner pad of a stretch shoe according to claim 7, characterized in that: the gas or liquid cavity (1) is filled with a soft or elastic material.

10. The internal elastic cushion damper device of the shoe according to claim 9, wherein: a thickness of the flexible or elastic material is 1mm to 3 _C m.

 11. The shock absorbing device for an inner pad of a stretch shoe according to claim 7 or 8 or 9 or 10, characterized in that: a fishbone spacer (12) is longitudinally arranged in the gas or liquid cavity (1) A column edge (122) is provided at an end of a fish sting (121) on the fish bone spacer (12); a side spacer (13) is provided inwardly along the outer end of the inner cushion body, and the side spacer A column edge (132) is provided at the end of the strip (13).

 12. The shock absorbing device for the inner pad of a stretch shoe according to claim 11, characterized in that-the spacer (11), the fish bone spacer (12) and the side spacer (13) are directly connected to the inner pad At the bottom of the body, the gas or liquid cavity (1) is pressed into a cavity with a corresponding shape.